Impact statement
The variety of uses of VR, and the fact that it can be customized, means it has the potential to be further utilized by marginalized communities. To share knowledge with marginalized stakeholders, we reviewed research on VR’s use for wellbeing. We also assessed equity- and intersectionality-related factors. We found that VR has broad benefits and uses, meeting users where they were at, but that some questions remain. How can VR programs be owned by marginalized populations and continued beyond just research projects? How can intersectionality, the impact of multiple oppressions, be better included in the design and research on this topic? Could further community engagement help identify relevant targets and mechanisms outside of the mainstream? We discuss these challenges and provide recommendations. We gather information and potential resources for marginalized clinicians, researchers and populations to use VR programs and factors that facilitate their use.
Introduction
Background
Virtual reality (VR) could improve the wellbeing of marginalized groups if it is implemented equitably (World Health Organization, 2008; Social Determinants of Health Framework Task Group, 2015; Wassell and Dodge, Reference Wassell and Dodge2015). “Wellbeing” refers to the composite of challenges and strengths experienced by a person, such as socioeconomic factors or mental and physical health. VR is an immersive, three-dimensional experience with which users can interact. Through a head-mounted device or on a computer, VR communicates an experience of an alternate reality, which the user can influence (Sherman and Craig, Reference Sherman and Craig2018). A technology with a slew of applications for wellbeing, VR can induce relaxation, encourage health behaviors, help with mental health rehabilitation, educate, enhance social support and more (Liu et al., Reference Liu, Ren, Xiao, Zhang and Demian2022; Singha and Singha, Reference Singha and Singha2024). This article reviews the literature on VR programs designed to support the wellbeing of marginalized groups.
To date, VR has not been inclusive. When people are excluded from resources and exposed to wellbeing risks, i.e., marginalized, they are being oppressed by multiple systems working together (Crenshaw, Reference Crenshaw1989; Robards et al., Reference Robards, Kang, Usherwood and Sanci2018; Baah et al., Reference Baah, Teitelman and Riegel2019; Schueller et al., Reference Schueller, Hunter, Figueroa and Aguilera2019; Rami et al., Reference Rami, Thompson and Solis-Cortes2023). In this text, we use the verbs “marginalized” and “marginalization” to refer to the unfair conditions imposed on people. Marginalization is a societal process, not an identity, and various inequities sustain it (Wingrove-Haugland and McLeod, Reference Wingrove-Haugland and McLeod2021; Fluit et al., Reference Fluit, Cortés-García and von Soest2024). For instance, poorer wellbeing outcomes are strongly linked with experiences of racism, heterosexism and other marginalizations (Paradies, Reference Paradies2016; Plöderl and Tremblay, Reference Plöderl and Tremblay2015). Similarly, the lack of inclusivity and representation of diverse experiences in digital health is marginalizing. Intersectionality theory posits that the mechanisms of marginalization are inextricably linked – dependent on each other to continue this power imbalance (Crenshaw, Reference Crenshaw1989). Equity provides an opportunity to address the unfair differences between groups regardless of social, political, financial or other factors (Whitehead, Reference Whitehead1992). Improving the lack of equity and intersectionality of VR will thus improve its application in healthcare.
According to a review by Schueller et al. (Reference Schueller, Hunter, Figueroa and Aguilera2019) in the United States, VR development faces access and participation barriers. These barriers are illustrated by a lack of access to technology and a lack of intersectionality and variety in programming. For example, Indigenous participants from nations across multiple high-income Western countries indicated that digital health does not consider their needs related to their age, gender, culture and norms (Li and Brar, Reference Li and Brar2022; Henson et al., Reference Henson, Chapman, Shepherd, Carlson, Rambaldini and Gwynne2023; Hicks et al., Reference Hicks, Toombs, Lund, Kowatch, Hopkins and Mushquash2024). Similarly, digital health solutions have failed to cater to individuals from underrepresented sexualities and genders who desire holistic, interpersonal and positive support (Steinke et al., Reference Steinke, Root-Bowman, Estabrook, Levine and Kantor2017; Gilbey et al., Reference Gilbey, Morgan, Lin and Perry2020). Ramos et al. (Reference Ramos and Chavira2022) reviewed diversity, equity and inclusion in mental health mobile applications, and they concluded that demographic information and sample diversity are often underreported in this type of study (Ramos et al., Reference Ramos, Ponting, Labao and Sobowale2021). Intersectionality in this area of research has also been identified as insufficient (Figueroa et al., Reference Figueroa, Luo, Aguilera and Lyles2021; Huang et al., Reference Huang, Ma, Craig, Wong and Forth2020). These issues offer marginalized groups a lower standard of care, amplifying healthcare inequities (Whitehead et al., Reference Whitehead, Talevski, Fatehi and Beauchamp2023). It creates a perception among users of lack of trustworthiness, safety and irrelevance (Pendse et al., Reference Pendse, Nkemelu, Bidwell, Jadhav, Pathare, De Choudhury and Kumar2022; Whitehead et al., Reference Whitehead, Talevski, Fatehi and Beauchamp2023). Thus, the experiences within and across these marginalized groups are varied, making clear that intersectionality becomes a key consideration for VR creators.
Members of marginalized groups are developing VR, which has proven effective in several contexts. Pendse et al. (Reference Pendse, Nkemelu, Bidwell, Jadhav, Pathare, De Choudhury and Kumar2022) discussed how digital health programs like VR could incorporate cultural relevance, thereby promoting agency and informal help-seeking in multiple forms. Progress is being made toward these goals, with several proof-of-concept studies being underway for cultural adaptation to key underserved groups (Seon et al., Reference Seon, Mady, Yang, Karia, Lashley, Sescu, Lalonde, Puskas, Outerbridge, Parent-Racine, Pagiatakis, Gomez-Cardona, Jiang, Bouchard and Linnaranta2023; Trueba et al., Reference Trueba, Crespo-Andrade, Garces, Larrea, Alvarez Frank, Ren, Cray, Kimball, Dickinson and Vahia2024). Studies have demonstrated that VR can facilitate experiences, such as cultural or gender affirmation, by enabling users to embody avatars and interact within realistic virtual worlds (Wallis and Ross, Reference Wallis and Ross2021; Chong et al., Reference Chong, Lim, Rafi, Tan and Mokhtar2022; Dincelli and Yayla, Reference Dincelli and Yayla2022; Freeman and Acena, Reference Freeman and Acena2022). Additionally, Second Life, a collection of virtual environments, hosts community-organized gatherings, which have been shown to benefit the mental and social wellbeing of disabled and 2SLGBTQIA+ persons (Acena and Freeman, Reference Acena and Freeman2021; Freeman and Acena, Reference Freeman and Acena2022). These applications of art, heritage, games and therapy demonstrate how VR can enhance the wellbeing of marginalized groups.
Objectives
Our aim was to describe the outcomes of these programs while taking into account the experiences of intersectional marginalization. We sought to identify gaps across several variables of interest, such as program targets, equity, access and inclusion. These are defined as conditions affecting wellbeing; actions taken to improve unfair practices; elements of the digital divide, such as financial barriers to technology; and the representation of diverse populations.
Positionality
The research was developed by a multidisciplinary team of diverse backgrounds living and studying on Turtle Island (North America). We drew from key theoretical literature sources from marginalized authors, additionally. As a diverse team with multiple insights and lived experiences, we reflected and discussed how to make our research inclusive and equitable, such as in research planning, choice of variables, assumptions and interpretations. The team is comprised of both marginalized VR users and creators. However, our work may reflect biases and power dynamics, as we are primarily from academic and healthcare-based backgrounds. We are influenced by our experiences in a high-income Western country, but we reflected on our responsibilities to other communities. Part of our efforts is reporting on this study with the SIITHIA intersectionality checklist, making study materials open access and advocating for equity in healthcare in our work and conference presentations. Our research team descend from a mix of heritages, such as mixed (Q.S.), Black and Caribbean (M.L., C.D. and Q.S.), Asian (L.S.) and European (G.S., A.H.M., E.C.D., C.J., M.Le. and Q.S.). Several members are shaped by lived multicultural experience, intersectional discrimination and racialization (Q.S., L.S., C.D. and M.L.) and settling or immigrating to Turtle Island (all). The majority of the team experience marginalization based on gender and sexuality. Several members also experience biases based on their ability.
Methods
Protocols and preregistration
The review protocol was preregistered (https://doi.org/10.17605/OSF.IO/K2EGN ). The protocol follows the Preferred Reporting Items for Systematic reviews and Meta-Analyses extension for Scoping Reviews (PRISMA-SCR) (Tricco et al., Reference Tricco, Lillie, Zarin, O’Brien, Colquhoun, Levac, Moher, Peters, Horsley, Weeks, Hempel, Akl, Chang, McGowan, Stewart, Hartling, Aldcroft, Wilson, Garritty, Lewin, Godfrey, Macdonald, Langlois, Soares-Weiser, Moriarty, Clifford, Tunçalp and Straus2018), Joanna Briggs Institute methodology for scoping reviews (Peters et al., Reference Peters, Godfrey, Khalil, McInerney, Parker and Soares2015; Peters et al., Reference Peters, Godfrey, McInerney, Munn, Tricco, Khalil, Aromataris E, Porritt, Pilla and Jordan2020) and Strengthening the Integration of Intersectionality Theory in Health Inequality Analysis (SIITHIA) checklist (Blair et al., Reference Blair, El-Samra, Chakravartty, Steensma, Bird and Jackson2022).
Research aims and design
Due to its broader framing following the participant, context and concept (PCC) structure, our research question, how VR is used for wellbeing among marginalized groups?, suited a scoping review methodology. To summarize the research process and outcomes, such as how targets of VR programs lead to wellbeing outcomes, we developed a logic model (W.K. Kellogg Foundation, 2004).
Search strategy
On May 8 and 9, 2023, we searched OVID (MEDLINE, PsycINFO, Embase), Web of Science databases and the grey literature using keywords in Google Scholar. These keywords were generated from pre-existing literature filters that we edited to fit our topic and from articles identified during prior limited searches (Walsh et al., Reference Walsh, Peterson and Judkins2014; Wafford et al., Reference Wafford, Miller and O’Dwyer2018; NIH, 2019; UofA Subject guides, 2023). The two main search themes were virtual reality and marginalized populations (Supplementary Material). The search terms included healthcare disparities, social disparity, ethnic populations, disabled, minority group, social discrimination, sexism, Indigenous people, LGBTQ, among hundreds of other variations and terms (combined with or) and virtual reality with other relevant terms.
Selection criteria
The search included quantitative and qualitative studies from any country, publication date, and language. It excluded user and design studies due to the rare presentation of outcome data, but experimental, observational and descriptive studies were included. Peer-reviewed research and dissertations were included, while other reviews, conference abstracts and letters were excluded as they did not contain original research.
Screening
Inclusion criteria
The review included studies whose populations were marginalized, defined as having limited access to health promotion and greater exposure to health risks (Baah et al., Reference Baah, Teitelman and Riegel2019). Some examples are socioeconomic, underrepresented races, underrepresented sexualities or genders, and persons at the intersections of these groupings. Studies must have met the definition of VR from Sherman and Craig (Reference Sherman and Craig2018): a communicated experience, creation of a virtual world, immersion into an alternate reality and the ability of the user to interact with this world. The articles had to investigate wellbeing. We operationalized wellbeing as the multiple factors within which a person could have varying levels of challenge or resources to reflect the United Nations’ (UN) Sustainable Development Goals (Social Determinants of Health Framework Task Group, 2015; Wassell and Dodge, Reference Wassell and Dodge2015; World Health Organization, 2008). Broadly, these categories were socioeconomic, mental and physical health, social, cultural and spiritual factors.
Exclusion criteria
Considering VR as an opportunity for creative, pluralistic and holistic wellbeing (Pendse et al., Reference Pendse, Nkemelu, Bidwell, Jadhav, Pathare, De Choudhury and Kumar2022), it was necessary to map the literature on VR with a broad definition of wellbeing, reflecting the UN’s Sustainable Development Goals. While various outcomes, including mental or physical health, could be covered by the included papers, they were only included if their objectives were not based solely on diagnosis–symptom paradigms. For example, VR aiming to improve symptoms of anxiety in individuals with anxiety disorders would be excluded. We made this decision because this is a topic of previous reviews (Ionescu et al., Reference Ionescu, Van Daele, Rizzo, Blair and Best2021; Rowland et al., Reference Rowland, Cassimatis, Ganapathy, Casey and Clough2022; Tassinari et al., Reference Tassinari, Aulbach and Jasinskaja-Lahti2022) and to respect the broad scope of wellbeing. Anti-prejudice articles were excluded because they often did not include marginalized populations and often focused on empathy-building. Articles about vocational training, short-term disability or occupational groups were excluded for relevance. Serious games, projections and gaming systems that did not include the key components of VR as defined in our protocol were also excluded.
ASReview and Covidence
References were deduplicated and quality-checked in EndNote 20 (The Endnote Team, 2013). We calibrated rater agreement with 100 articles to train the software for automating abstract screening, ASReview. ASReview (version 1.1) is an open-source software with active learning. It has been validated and used by many reviews with a 5% error rate (van de Schoot et al., Reference van de Schoot, de Bruin, Schram, Zahedi, de Boer, Weijdema, Kramer, Huijts, Hoogerwerf, Ferdinands, Harkema, Willemsen, Ma, Fang, Hindriks, Tummers and Oberski2021). We set a stopping criterion of screening 35% of all articles or 150 irrelevant articles in a row, two raters reviewed titles and abstracts (phase 1). Models were switched midway from default to neural networking and Sentence Bidirectional Encoder Representations from Transformers (SBERT), following the procedures suggested by ASReview in phase two of abstract screening (Teijema et al., Reference Teijema, Hofstee, Brouwer, de Bruin, Ferdinands, de Boer, Vizan, van den Brand, Bockting, van de Schoot and Bagheri2023). The decisions on articles seen by only one reviewer were confirmed in pairs. One independent rater screened unseen articles deprioritized by ASReview for quality checking. From this, one article was included. Full-text screening was carried out using Covidence, performed by two screeners per article, and disagreements were resolved by consensus (Veritas Health Innovation, n.d.). The first author checked reference lists using citationchaser and filtered them with ASReview (Haddaway et al., Reference Haddaway, Grainger and Gray2021). Consensus was made on any included articles from citation searching with another rater.
Data extraction, charting and reporting
Raters piloted a data extraction tool with five articles. We extracted the following preregistered variables: bibliographic data, participant characteristics, characteristics of the VR programs, intervention or program information, outcomes, equity/intersectionality, qualitative results, study characteristics and research team characteristics (detailed in study protocol). Some additional variables of interest emerged: study limitations and main finding summary to assist in the appraisal of findings and quality of studies. Some of our equity- and intersectionality-related variables were age, gender, sex, race, ethnicity, nationality, sexual orientation, romantic orientation, highest educational achievement, occupation and income. For the interventions, these included: accessibility, co-design or community involvement, critical analysis of inclusion and exclusion criteria, language of the intervention, and others. We report the data with narrative summaries and descriptive analyses, including stratified analyses for intersectionality. Qualitative data were processed via content analysis. We provide a flowchart of the screening process (Haddaway et al., Reference Haddaway, Page and Pritchard2022).
Throughout the review process, we used a logic model as suggested by published reviews and guidelines (Kneale et al., Reference Kneale, Thomas and Harris2015; W.K. Kellogg Foundation, 2004). The first author developed the preliminary logic model in iterations with the research team. This logic model helped refine the review question and identify variables of interest. During data charting and synthesis, the logic model informed our interpretations.
We assessed the equity and intersectionality of the included articles using the SIITHIA checklist (Blair et al., Reference Blair, El-Samra, Chakravartty, Steensma, Bird and Jackson2022). This tool assists in tracking and reporting health inequalities and is guided by eight principles: intersecting categories, multilevel analysis, power, equity, social justice, time and space, diverse knowledge, and reflexivity (Blair et al., Reference Blair, El-Samra, Chakravartty, Steensma, Bird and Jackson2022). Our assessment of our review using this tool is presented in the Supplementary Material.
Results
Overview of literature findings
Identified articles and agreement
We identified 12,401 records before deduplication (Figure 1), and a further 1,724 were identified through backward and forward citation searches. Raters reviewed and included 43 records – 38 studies as some publications use the same data. Rater agreement was high on average and increased, as measured by Gwet’s Agreement Coefficient 1 (AC1)) in phase I (AC1 = .80) and phase II (AC1 = .89) of title and abstract screening and full-text selection (AC1 = .90).
Figure 1. PRISMA flowchart.
Selected literature
The selected literature is listed in Table 1. Most of the literature was from Western or high-income countries (89%) – 55% on Turtle Island – and was published in 2022 or 2023 (45%). The populations experienced marginalization based on disability or developmental disorders (k = 22 studies), underrepresented sexualities and genders (k = 16 studies), age (k = 13 studies), social, economic or political circumstances (k = 5), geographic location (k = 1), race and/or ethnicity (k = 4). Several studies explicitly recruited based on the intersection of these marginalizations (k = 21). There were mental (k = 33), social (k = 15), cultural (k = 2) and physical (k = 10) wellbeing targets.
Table 1. Study characteristics
Participant demographics
Overall, the studies included n = 1,587 individuals from various demographic categories (median n = 22 per study [range: 1–444]). The average age was 41.89 [95% CI: 33.05–50.72]. Sex (69% female, no intersex) and gender (71% men) were biased due to the exclusion of non-binary and intersex categories, and the conflation of sex and gender. Non-binary, transgender and gender-non-conforming individuals were underrepresented (at least n = 54 transfemme and transmascs). Most of the participants were Black/African American (n = 247, 26%) or White/European (n = 502, 53%). Some other race categories were “Other” (n = 44, 5%), Latinx (n = 73, 8%), Mixed (n = 40, 4%), Indigenous (1%) and Asian (2%). Again, there was some conflation of race and ethnicity. When sexuality was not central to the study’s aims, it was typically not reported. The highest educational achievement was commonly high school (58% in k = 16 studies). In some studies, the populations were underemployed – about half of those whose occupational status was known in k = 13 studies – or of lower income, but this was reported in very few studies (k = 7). There was an underreporting of carer, stay-at-home and retired occupations overall.
Study information
The authors reported qualitative (k = 11), mixed methods (k = 6) and quantitative (k = 21) study designs, but almost half of the studies collected some quantitative and qualitative data. The studies used rating scales, interviews, observations, open-ended questions, physiological measures, researcher-developed questions and visual analogue scales. Data collection was typically longitudinal with a median of 8 weeks [IQR: 4–8.5]; the few follow-ups (k = 6) were a median of 4.5 months post-intervention. The quantitative study designs were randomized controlled trials (RCTs) (k = 8), feasibility or pilot (k = 4), quasi-experimental (k = 4), longitudinal or retrospective (k = 3), experimental (k = 1) and case reports (k = 1).
Narrative summary
We present categories of interventions and their characteristics in Table 2. The program impacts vary based on the population. In the next section, we summarize the results by population, including subpopulations for intersectionality considerations. This is followed by a cumulative summary of the literature (Figure 2). Finally, we report on equity and intersectionality.
Table 2. Description of interventions
Figure 2. Logic model.
Indigenous persons (k = 2)
Cultural heritage was the topic of two qualitative studies delivered to Māori (Aotearoa) (Park et al., Reference Park, Regenbrecht, Duncan, Mills, Lindeman, Pantidi and Whaanga2022) and Inuit elders (Qikiqtaaluk) (Dawson et al., Reference Dawson, Levy and Lyons2011). The programs demonstrated traditional living environments and meeting places – a Thule Whalebone house/Igluryuq and a wharenui – and passed on knowledge and enjoyable cultural experiences to their communities.
Marginalized youth (k = 3)
Multi-session, classroom-based programs provided underserved and underrepresented students with guidance from avatars or their teachers on self-efficacy and competence (Bell et al., Reference Bell, Martinez, Gotsis, Lane, Davis, Antunez-Castillo, Ragusa and Spruijt-Metz2018; Wang et al., Reference Wang, Young, Plechatá, Mc Guckin and Makransky2023). The programs focused on delivering practical skills, such as gardening, cooking and social skills. A one-session VR meditation RCT was implemented for youth experiencing homelessness (Chavez et al., Reference Chavez, Kelleher, Slesnick, Holowacz, Luthy, Moore and Ford2020). Overall, benefits were observed in self-efficacy, social competence, support and anxiety. These were sometimes supported by large score changes but sometimes failed to achieve significance. Thus, there appears to be limited support from these three studies, which may be due to their small sample sizes (n < 20).
Older individuals (k = 6)
VR field trips to natural and landmark sites and exercise games offered short-term benefits for older individuals with and without disabilities. For instance, they increased observed positive and decreased negative affect (Brimelow et al., Reference Brimelow, Dawe and Dissanayaka2020; Brimelow et al., Reference Brimelow, Thangavelu, Beattie and Dissanayaka2022; F Chaze et al., Reference Chaze, Hayden, Azevedo, Kamath, Bucko, Kashlan, Dube, De Paula, Jackson, Dupuis and Tsotsos2022; Matsangidou et al., Reference Matsangidou, Solomou, Frangoudes, Ioannou, Theofanous, Papayianni and Pattichis2023). In a longitudinal study, older individuals with disabilities showed a decrease in depression, but this finding was not robust (Afifi et al., Reference Afifi, Collins, Rand, Otmar, Mazur, Dunbar, Fujiwara, Harrison and Logsdon2022). Older women had improved physical strength and clinically significant changes in mental health following exercise games, but these were significant on a subscale of measures only (Lee et al., Reference Lee, Son, Kim and Yoon2015). Notably, one study also showed increased signs of agitation in the participants after using VR (Brimelow et al., Reference Brimelow, Thangavelu, Beattie and Dissanayaka2022). Therefore, the use of VR as long-term support for the mental wellbeing of older individuals requires further evaluation.
Underrepresented genders and sexualities(k = 8)
Female sexual violence survivors (k = 1). An eight-session VR reflective writing and mindfulness meditation program was implemented for young female sexual violence survivors (Lee and Cha, Reference Lee and Cha2021). Participants in the experimental group improved in perceived social support, reduced impacts of sexual violence and suicidal ideation.
Two-spirit, lesbian, gay, transgender, queer, intersex, asexual and other (k = 7). Studies reviewed (Acena and Freeman, Reference Acena and Freeman2021; Freeman and Acena, Reference Freeman and Acena2022; G Freeman et al., Reference Freeman, Lambe, Galal, Yu, Kabir, Petit, Rosebrock, Dudley, Chapman, Morrison, O’Regan, Murphy, Aynsworth, Jones, Powling, Grabey, Rovira, Freeman, Clark and Waite2022; Li et al., Reference Li, Freeman, Schulenberg and Acena2023; McKenna et al., Reference McKenna, Wang, Williams, McGregor and Boskey2022; Paré et al., Reference Paré, Sengupta, Windsor, Craig, Thompson, Sengupta, Shanahan and Kim2019; Reyes and Fisher, Reference Reyes and Fisher2022) consistently reported that queer, transgender and gender-expansive youth and adults navigating social spaces experienced identity exploration and affirmation. Social VR worlds provided supportive and safer spaces through relationships with accepting individuals. VR scenarios were also used to support safer sexual practices among young men-who-have-sex-with-men by reducing shame, but the impacts were minimal (Christensen et al., Reference Christensen, Miller, Appleby, Corsbie-Massay, Godoy, Marsella and Read2013; Wang et al., Reference Wang, Christensen, Smith, Gillig, Jeong, Liu, Appleby, Read and Miller2021). Overall, the current evidence for this group is primarily qualitative, which has provided a rich and descriptive overview of experiences in VR.
Individuals with disabilities (k = 18)
Programs for persons with disabilities typically involved multi-session interventions focusing on self-efficacy, mental health, quality of life, self-management and health behaviors (Johnson et al., Reference Johnson, Feinglos, Pereira, Hassell, Blascovich, Nicollerat, Beresford, Levy and Vorderstrasse2014; Singh et al., Reference Singh, Nor, Rajiman, Yin, Karim, Ruslan and Kaur2017; Davis and Chansiri, Reference Davis and Chansiri2019; Kwon et al., Reference Kwon, Shin, D-J and Cho2022). A few studies observed the use of virtual worlds by persons with disabilities (Bloustien and Wood, Reference Bloustien and Wood2016; Davis and Chansiri, Reference Davis and Chansiri2019), and these were enabling for social and practical reasons, such as chatting with others and finding work. One study used VR for life skills training (grocery shopping, cooking, kitchen cleaning) for intellectual disability, equivalent to the control group (Cheung et al., Reference Cheung, Ni, Tam, Chan, Cheung, Tsang, Yip, W-K and Wong2022). In general, VR for individuals with disabilities had some benefits to their targets in these k = 6; however, some differences were notable among subgroups in other studies. To highlight the intersecting forms of marginalization experienced by participants, we have stratified our analyses following the SIITHIA best practices.
Women with physical disabilities (k = 3). Women with disabilities who used Second Life experienced improvements in depression, self-esteem and health behaviors (Nosek et al., Reference Nosek, Robinson-Whelen, Hughes and Nosek2016; Nosek et al., Reference Nosek, Robinson-Whelen, Ledoux, Hughes, O’Connor, Lee, Goe, Silveira, Markley and Nosek2018; Robinson-Whelen et al., Reference Robinson-Whelen, Hughes, Taylor, Markley, Vega, Nosek and Nosek2020). However, self-efficacy improved in only one of the two studies by Nosek et al. (Reference Nosek, Robinson-Whelen, Ledoux, Hughes, O’Connor, Lee, Goe, Silveira, Markley and Nosek2018). The studies all involved women with disabilities through consultations, but one study also held focus groups (Nosek et al., Reference Nosek, Robinson-Whelen, Hughes and Nosek2016), and another had facilitators with lived experience (Robinson-Whelen et al., Reference Robinson-Whelen, Hughes, Taylor, Markley, Vega, Nosek and Nosek2020).
Racialized persons with physical disabilities, including women (k = 3). Interventions of eight to ten sessions with racialized women did not consistently improve physical, mental and health behavior indices, even with similar features to the other reviewed programs (Rosal et al., Reference Rosal, Heyden, Mejilla, Capelson, Chalmers, DePaoli, Veerappa and Wiecha2014; Mitchell and Laird, Reference Mitchell and Laird2022; Mitchell et al., Reference Mitchell, Bragg, De La Cruz, Winter, Reichert, Laird, Moldovan, Parker, Martin-Howard and Gardiner2023). In one study, though, diabetes-related distress, self-care behaviors, dietary environmental barriers and other measures improved slightly with a mixed-gender sample, but this was lost at six months (Ruggiero et al., Reference Ruggiero, Moadsiri, Quinn, Riley, Danielson, Monahan, Bangs and Gerber2014). Thus, support for VR health behavior and efficacy interventions with racialized women and individuals with physical disabilities is currently limited. Two studies consulted their target populations, and two also culturally adapted their interventions.
Autism Spectrum (k = 2). A VR sensory room for the wellbeing of adults with disabilities or autism spectrum disorder improved symptoms of anxiety to nearly subclinical levels and improved depressive symptoms (Mills et al., Reference Mills, Tracey, Kiddle and Gorkin2023). Changes in social participation following the VR intervention were also noted (Mills et al., Reference Mills, Tracey, Kiddle and Gorkin2023), including another study investigating self-guided sessions in social VR (Stendal and Balandin, Reference Stendal and Balandin2015). VR social worlds facilitated and empowered communication with peers and showed the potential of VR (Stendal and Balandin, Reference Stendal and Balandin2015; Mills et al., Reference Mills, Tracey, Kiddle and Gorkin2023).
Severe mental illness (k = 4). A VR anti-stress program for persons with mood disorders helped with mindset, coping and relaxation, depression, anxiety and stress levels (Shah et al., Reference Shah, Torres, Kannusamy, Chng, H and Klainin-Yobas2015). Various VR therapies aimed at improving anxiety and increasing the quality of life of people diagnosed with schizophrenia were effective for some and showed moderate clinical significance sustained at follow-up (Altunkaya et al., Reference Altunkaya, Craven, Lambe, Beckley, Rosebrock, Dudley, Chapman, Morrison, O’Regan, Grabey, Bergin, Kabir, Waite, Freeman and Leal2022; Beaudoin et al., Reference Beaudoin, Potvin, Phraxayavong and Dumais2023; Bond et al., Reference Bond, Kenny, Pinfold, Couperthwaite, Kabir, Larkin, Beckley, Rosebrock, Lambe, Freeman, Waite and Robotham2023; D. Freeman et al., Reference Freeman, Lambe, Galal, Yu, Kabir, Petit, Rosebrock, Dudley, Chapman, Morrison, O’Regan, Murphy, Aynsworth, Jones, Powling, Grabey, Rovira, Freeman, Clark and Waite2022; D Freeman et al., Reference Freeman, Lambe, Galal, Yu, Kabir, Petit, Rosebrock, Dudley, Chapman, Morrison, O’Regan, Murphy, Aynsworth, Jones, Powling, Grabey, Rovira, Freeman, Clark and Waite2022).
Immigrants (k = 1)
A dissertation study(Abal, Reference Abal2012) investigated how Second Life could improve anxiety for immigrants and found that the control group reported a higher mean in anxiety than did the experimental group during learning experiences.
Putting findings together: Logic model
Figure 2 shows the final iteration of the logic model and provides insights from the studies. For groups who may experience stigma or isolation, such as 2SLGBTQIA+, elderly and disabled persons, social VR in group settings was supportive. The adaptability of VR was beneficial for disabled persons. Non-therapy psychological interventions were applied to multiple diverse populations, in comparison to psychotherapeutic ones that had a narrower application. The study authors identified various mechanisms behind their interventions. Many programs involved education, skills training and psychological support to improve efficacy, mental wellbeing and self-management. Leisure, culture and art programs harnessed natural activities like socialization, exercise and traditions to boost social support, quality of life and other psychological factors.
Some studies provided qualitative data on the usability and design (Figure 2). No single factor was ubiquitous in facilitating or impeding VR’s use. Using VR at home presented both barriers and facilitators, such as interruptions from others, greater accessibility and convenience (Johnson et al., Reference Johnson, Feinglos, Pereira, Hassell, Blascovich, Nicollerat, Beresford, Levy and Vorderstrasse2014; Nosek et al., Reference Nosek, Robinson-Whelen, Hughes and Nosek2016). The possibility to meet people anywhere and anonymity were also facilitators (Nosek et al., Reference Nosek, Robinson-Whelen, Hughes and Nosek2016; Wang et al., Reference Wang, Christensen, Smith, Gillig, Jeong, Liu, Appleby, Read and Miller2021; Chaze et al., Reference Chaze, Hayden, Azevedo, Kamath, Bucko, Kashlan, Dube, De Paula, Jackson, Dupuis and Tsotsos2022; Freeman and Acena, Reference Freeman and Acena2022; Li et al., Reference Li, Freeman, Schulenberg and Acena2023). However, unclear information presented a barrier, while self-guided and immersive modalities were enjoyed (Acena and Freeman, Reference Acena and Freeman2021; Bond et al., Reference Bond, Kenny, Pinfold, Couperthwaite, Kabir, Larkin, Beckley, Rosebrock, Lambe, Freeman, Waite and Robotham2023; Chaze et al., Reference Chaze, Hayden, Azevedo, Kamath, Bucko, Kashlan, Dube, De Paula, Jackson, Dupuis and Tsotsos2022; Dawson et al., Reference Dawson, Levy and Lyons2011; Freeman and Acena, Reference Freeman and Acena2022; G Freeman et al., Reference Freeman, Lambe, Galal, Yu, Kabir, Petit, Rosebrock, Dudley, Chapman, Morrison, O’Regan, Murphy, Aynsworth, Jones, Powling, Grabey, Rovira, Freeman, Clark and Waite2022). Different emotions motivated VR use, such as feeling safe, being curious about the technology, wanting to meet others with similar backgrounds and being interested in experiencing new things (Johnson et al., Reference Johnson, Feinglos, Pereira, Hassell, Blascovich, Nicollerat, Beresford, Levy and Vorderstrasse2014; Stendal and Balandin, Reference Stendal and Balandin2015; Nosek et al., Reference Nosek, Robinson-Whelen, Hughes and Nosek2016; Lee and Cha, Reference Lee and Cha2021; McKenna et al., Reference McKenna, Wang, Williams, McGregor and Boskey2022; Mitchell and Laird, Reference Mitchell and Laird2022; Li et al., Reference Li, Freeman, Schulenberg and Acena2023; Mitchell et al., Reference Mitchell, Bragg, De La Cruz, Winter, Reichert, Laird, Moldovan, Parker, Martin-Howard and Gardiner2023). Social VR and group interventions facilitated the creation of safer spaces and fostered a sense of shared experience. However, not every space was safe, and sometimes norms or structures that govern interactions were disregarded by some users (Nosek et al., Reference Nosek, Robinson-Whelen, Hughes and Nosek2016; Freeman and Acena, Reference Freeman and Acena2022; Li et al., Reference Li, Freeman, Schulenberg and Acena2023). While some participants appreciated more realistic avatars, gestures and environments, others felt the deviations from reality provided emotional safety and novel experiences (Abal, Reference Abal2012; Johnson et al., Reference Johnson, Feinglos, Pereira, Hassell, Blascovich, Nicollerat, Beresford, Levy and Vorderstrasse2014; Bloustien and Wood, Reference Bloustien and Wood2016; Nosek et al., Reference Nosek, Robinson-Whelen, Hughes and Nosek2016; Acena and Freeman, Reference Acena and Freeman2021; McKenna et al., Reference McKenna, Wang, Williams, McGregor and Boskey2022; Reyes and Fisher, Reference Reyes and Fisher2022). Gender-bending and pushing the limitations of disability were also possible in VR (Acena and Freeman, Reference Acena and Freeman2021; Bloustien and Wood, Reference Bloustien and Wood2016; Davis and Chansiri, Reference Davis and Chansiri2019; G Freeman et al., Reference Freeman, Lambe, Galal, Yu, Kabir, Petit, Rosebrock, Dudley, Chapman, Morrison, O’Regan, Murphy, Aynsworth, Jones, Powling, Grabey, Rovira, Freeman, Clark and Waite2022; McKenna et al., Reference McKenna, Wang, Williams, McGregor and Boskey2022; Reyes and Fisher, Reference Reyes and Fisher2022; Stendal and Balandin, Reference Stendal and Balandin2015). Some studies, particularly those providing psychotherapy, did not report any barriers. This represents a knowledge gap due to a power imbalance between providers, research teams and clients and can be resolved with mixed-method designs.
Appraisal of equity and intersectionality
The programs’ equity and intersectionality were impacted by many factors, including the composition of the research team, study planning, knowledge mobilization, eligibility criteria and ownership (see Figure 3 and Supplementary Material). Only seven study teams disclosed their positionality. In approximately half of the studies, researchers engaged with the populations being researched. The methods were typically not described in detail but included co-design, consultation, participatory and qualitative research, cultural adaptation, population-led design, or combinations of these methods. The most common method was consultations with the key community, with or without other methods. About half of the studies explicitly framed their studies on general equity and rarely intersectionality. A majority collected information on two or more axes of marginalization (k = 26); however, this rarely translated to analysis (k = 4) or interpretation. The studies overall did not conclude with any discussion of intersectionality, equity or policy suggestions (k = 1). Individuals were sometimes excluded without lifetime illness histories (k = 19), speaking a dominant language (k = 13), access or ability to use technology or the internet (k = 11) or clinic referral to study (k = 11). However, in some studies, they could self-refer (k = 11), self-define gender (k = 5) or racial or ethnic background (k = 4), and did not need proof of educational, income or housing status (k = 3), which facilitated participation. Some VR programs were commercially available, but few programs were entirely free (no advertisements, tiered pricing or memberships), open access, owned or continued by communities researched (see Supplementary Material). Three studies were conducted in upper-middle-income countries with youth and adults. The quality of the studies and results was heterogeneous in the LMIC context, while high-income countries benefited from the most studies.
Figure 3. Intersectionality appraisal based on shortened SIITHIA checklist.
Discussion
In this scoping review, we comprehensively synthesized 38 VR programs from the literature. Many of the studies included populations that were intersectionally marginalized. The services provided were diverse, such as social support and affirmation, support for mental and emotional wellbeing, education, disability, physical health and cultural connections. VR opened worlds of natural, customized support that met people where they were at. VR’s ability to demonstrate and present knowledge through visuals boosted participants’ skills and efficacy. While enjoyment, engagement, and some benefits were evident, further research is needed to strengthen the evidence for effectiveness and efficacy. Although there was a variety of programs, some commonalities, like social and adaptive features, benefited multiple groups. Considering equity and intersectionality in the design, implementation and continuation of the projects could have widespread benefits. However, this remains a significant gap in current practices.
Leveraging naturalistic environments
Our findings showed that even programs that were not based on psychotherapy techniques like cognitive-behavioral therapy could still leverage naturalistic benefits and achieve successful engagement. For example, programs with cultural elements passed along important heritage and encouraged reconnection with culture. In VR social spaces, users of all ages sought and provided emotional and social benefits, including stigmatized groups like 2SLGBTQIA+, who created safer spaces with their own rules for respite from marginalization. The impact of leisure on subjective wellbeing is robust across countries and age populations (Kuykendall et al., Reference Kuykendall, Tay and Ng2015). Indigenous culture as health is a framework which states that cultural practices are not just complementary but are the basis of health, further supporting community and leisure activities linked to wellbeing (Yamane and Helm, Reference Yamane and Helm2022). Peer-to-peer programs often lead to improved recruitment and retention (Sokol and Fisher, Reference Sokol and Fisher2016). Studies without structured programming can also offer participants benefits, possibly due to the natural advantages of social support (Acena and Freeman, Reference Acena and Freeman2021; Li et al., Reference Li, Freeman, Schulenberg and Acena2023; van Brakel et al., Reference van Brakel, Barreda-Ángeles and Hartmann2023; Wang et al., Reference Wang, Young, Plechatá, Mc Guckin and Makransky2023).
Mental and physical programming challenges and opportunities
VR enhances customization opportunities, which are perfected through co-design, testing and iterations. For instance, programs designed to build skills and knowledge for physical health had mixed results, particularly for women and racialized individuals. These studies employed various methods of community involvement, such as consultations and cultural adaptation. Some inconsistency in findings may be explained by a multitude of factors, including the small number of studies identified. However, improving the integration of intersectionality and collaboration could help address these challenges (Davidson et al., Reference Davidson, Liu, Bhopal, White, Johnson, Netto, Wabnitz and Sheikh2013). A starting point for many digital mental health (DMH) interventions is the standard of care for mainstream populations, which is then adjusted to encourage use by marginalized populations (Hwang, Reference Hwang2009). However, this carries the mainstream’s norms and assumptions about the efficacy of the approach for marginalized groups (e.g., individual preferences about VR) (Schueller et al., Reference Schueller, Hunter, Figueroa and Aguilera2019). Several skill-building programs we reviewed were built bottom-up, but very few provided in-depth qualitative inquiry about preferences and no information about preference for VR versus other programs. Strategies such as addressing structural barriers, endorsement of marginalized groups through race-matched facilitators, collaborative working and gender considerations are pertinent (Davidson et al., Reference Davidson, Liu, Bhopal, White, Johnson, Netto, Wabnitz and Sheikh2013). Following this, further testing and iterations should ascertain that the modifications are appropriate and retain their meaning. Lastly, improving the quality of the literature with larger, controlled studies is essential (Mathews et al., Reference Mathews, McShea, Hanley, Ravitz, Labrique and Cohen2019).
The VR programs targeted primarily internal factors, like anxiety, positive and negative affect, depression, gender exploration and affirmation, health-related distress, quality of life, social support, and suicidal ideation. However, as several reviews note, recognizing the condition (e.g., health symptoms) and not the cause (e.g., marginalization and social determinants of health) sometimes strays from the principles of intersectionality and equity (Buchanan and Wiklund, Reference Buchanan and Wiklund2021; Alegría and Cheng, Reference Alegría and Cheng2023). To truly have a positive impact on wellbeing, VR programs must contribute to the transformation of the systems of oppression that reinforce each other (Baum et al., Reference Baum, Bégin, Houweling and Taylor2009; Meskó et al., Reference Meskó, Drobni, Bényei, Gergely and Győrffy2017). VR can be a changemaker. For example, its accessibility to the public rebalances power dynamics. Persons with lived experience become creators. This replaces mainstream norms with a community-led response to wellbeing. There are also opportunities for cultural plurality and increased access to care through culturally tailored or translated triage and psychoeducation programs (Pendse et al., Reference Pendse, Nkemelu, Bidwell, Jadhav, Pathare, De Choudhury and Kumar2022). Indeed, as Carey and Crammond (Reference Carey and Crammond2015) write, “it is evident that the power of an intervention comes not from where it is targeted, but rather how it works to create change within the system” (Carey and Crammond, Reference Carey and Crammond2015).
Equity and intersectionality pitfalls and solutions
We identified some challenges related to equity and intersectionality and will propose solutions in this section. The results from the modified SIITHIA intersectionality checklist (Blair et al., Reference Blair, El-Samra, Chakravartty, Steensma, Bird and Jackson2022) indicated an effort to involve communities with room for improvement. Firstly, the studies fell short of conducting intersectionality analyses, which undermines the representation of diverse experiences and knowledge mobilization in future research. Secondly, European binary/cisgender gender populations were overrepresented, and certain racialized groups and genders were underrepresented. Participants were often excluded from studies for not speaking a dominant language, lack of internet or technological access, or having specific illness histories or diagnoses. This may reflect a systemic inaccessibility to research participation (McCall et al., Reference McCall, D and Loutzenhiser2021). Inclusion should be improved by providing all necessary materials and training, balancing convenience sampling from clinics with other recruitment methods and offering appropriate remuneration for the resources and time to participate (McCall et al., Reference McCall, D and Loutzenhiser2021). For the mental and social wellbeing of the populations being studied, it is essential for privilege to be rebalanced in recruitment practices, led by an understanding of financial or other privileges and destigmatization (McCall et al., Reference McCall, D and Loutzenhiser2021). While technology is mainstream, access varies within and between marginalized populations and countries. Thus, widening access to the internet and digital technologies in close consultation with affected communities and incorporating intersectionality theory remains a recommendation (Labrique et al., Reference Labrique, Wadhwani, Williams, Lamptey, Hesp, Luk and Aerts2018; Husain et al., Reference Husain, Greenhalgh, Hughes, Finlay and Wherton2022). VR is not always the appropriate technology for every setting or desired by every community. But further research is needed to examine how VR perpetuates and amplifies inequities, such as privileging higher-income, English-speaking communities (Jardine et al., Reference Jardine, Nadal, Robinson, Enrique, Hanratty and Doherty2024).
A lack of leadership support for marginalized groups is a key challenge. Cultural norms are often imposed in healthcare, and thus, some knowledge is discounted (Armaou et al., Reference Armaou, Araviaki and Musikanski2020; Pendse et al., Reference Pendse, Nkemelu, Bidwell, Jadhav, Pathare, De Choudhury and Kumar2022; Radu et al., Reference Radu, Scheermesser, Spiess, Schulze, Händler-Schuster and Pehlke-Milde2023). Nevertheless, VR can recognize and address cultural forms of distress and incorporate the positive psychology of each local context (Craven et al., Reference Craven, Ryan, Mooney, Vallerand, Dillon, Blacklock and Magson2016; Mendenhall and Kim, Reference Mendenhall, Kim, Dyer, Kohrt and Candilis2021; Pendse et al., Reference Pendse, Nkemelu, Bidwell, Jadhav, Pathare, De Choudhury and Kumar2022; Silverman et al., Reference Silverman, Rosario, Hernandez and Destin2023). Thus, a genuine community desire and putting aside assumptions or imposed norms must precede the commencement of a project. Community consultations, relationship-building and other strategies are part of an in-depth knowledge-gathering process. Furthermore, other researchers can leverage their privilege to improve access to plural forms of care (Pendse et al., Reference Pendse, Nkemelu, Bidwell, Jadhav, Pathare, De Choudhury and Kumar2022) by assuring open access to their programs for modification or use. Indeed, ownership and continuity of programs represent a significant challenge. Most of the programs reviewed were developed and owned by researchers and never made available to the communities researched (certain exceptions in the Supplementary Material). As the selected articles spanned over a decade, the relative lack of permanent digital wellbeing infrastructure demonstrates the research-to-practice gap identified elsewhere (Morris et al., Reference Morris, Wooding and Grant2011). This implementation gap demonstrates a weakness in the feasibility and cost-effectiveness of the programs developed thus far; however, future work should address these challenges. Ownership by marginalized groups seemed to leverage naturalistic benefits, such as connecting with others over lived experiences and social support.
Additionally, marginalized individuals found cost-effective solutions around issues of ownership and project continuity in Second Life. Researchers have made suggestions similar to these VR users’ projects; Mohr et al. (Reference Mohr, Riper and Schueller2018) say to create, trial and sustain digital tools to increase their feasibility and utility (Mohr et al., Reference Mohr, Riper and Schueller2018; Schueller, Reference Schueller2021). Thus, we encourage stakeholders to incorporate translation strategies, open access and data sovereignty within their VR and digital health programs (Armaou et al., Reference Armaou, Araviaki and Musikanski2020; Pendse et al., Reference Pendse, Nkemelu, Bidwell, Jadhav, Pathare, De Choudhury and Kumar2022; Radu et al., Reference Radu, Scheermesser, Spiess, Schulze, Händler-Schuster and Pehlke-Milde2023). Low-cost solutions or project end dates could be among the solutions researchers use to overcome funding barriers limiting open-access initiatives. A future direction may be to perform an environmental scan to identify challenges like VR program ownership and other equity issues.
Recommendations
VR interventions are enjoyable and relevant to marginalized populations, but the literature on their impact and effectiveness was quite heterogeneous. Our logic model (Figure 2) summarizes these findings and their generalizability across populations. We identified limited studies meeting our criteria for wellbeing and not just targeting symptoms. Targeting symptoms or conditions is more appealing to some populations (Boucher and Raiker, Reference Boucher and Raiker2024), sometimes reducing attrition. However, the context and healing paradigms of the populations are important (Borghouts et al., Reference Borghouts, Eikey, Mark, De Leon, Schueller, Schneider, Stadnick, Zheng, Mukamel and Sorkin2021). The literature speaks to how co-development and leadership from marginalized populations benefit the implementation of wellbeing programs (Cyril et al., Reference Cyril, J, P-I and Renzaho2015). Thus, we recommend the following:
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• To increase the strength of evidence, stakeholders might focus on replication studies and adapting existing VR environments. This will allow time for centering the populations in the research process. It also allows time for thoughtful planning and assessment of the population’s context, relevant issues and healing paradigms.
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• Stakeholders should employ intersectionality theory and equity-based approaches to parse out the variability in preferences about VR (Cyril et al., Reference Cyril, J, P-I and Renzaho2015).
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• To reduce barriers to VR, opportunities for privacy when using the programs and setting group norms are universal adaptations.
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• Also, it seems participants may prefer to have a sense of immediate success of benefit (Borghouts et al., Reference Borghouts, Eikey, Mark, De Leon, Schueller, Schneider, Stadnick, Zheng, Mukamel and Sorkin2021). A brief psychoeducation and goal-setting module could help train participants to use the technology and learn what to expect from the intervention (Boucher and Raiker, Reference Boucher and Raiker2024; Mukhtar et al., Reference Mukhtar, Babur, Abbas, Irshad and Kiran2025).
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• In general, interventions using goal-setting techniques can improve outcomes (Stewart et al., Reference Stewart, McMillan, Hu, Ng, El-Den, O’Reilly and Wheeler2022).
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• Reflecting on biases and positionality is important as there are significant digital divides for persons of the global majority (global south) and within high and LMIC contexts (Tsatsou, Reference Tsatsou2011).
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• Incorporating population leadership or participatory research alongside mixed methods will help researchers to assess systemic issues affecting their project (Stiles-Shields et al., Reference Stiles-Shields, Cummings, Montague, Plevinsky, Psihogios and Williams2022). For example, this should involve prioritizing underserved populations, establishing whether the population has basic access needs, correcting epistemic exclusion by prioritizing Indigenous healing paradigms, and other strategies to transform health systems with digital technology (Ramos et al., Reference Ramos, Hernandez-Ramos, Taylor and Schueller2024).
Strengths and limitations
We addressed the knowledge gap on VR use by marginalized groups. Moreover, we took a complex approach by examining equity and intersectionality in research design, systemic factors and program features. We have also provided recommendations, including addressing the issues of power to stakeholders. Equally, we identified a key gap: subgroup analyses were rare, so were intersectional interpretations. Our search strategy was verified by members of the research team and a university librarian. However, we excluded articles that were symptom-centered and about non-marginalized populations, which limits this review’s scope. We manually quality-checked; however, our AI reviewer has a potential 5% margin of error. Additionally, positive research findings tend to be reported, while negative findings are not, meaning a potential publication bias. The included studies often had smaller sample sizes, reflecting the possibility that this literature is in development for marginalized groups and groups unrepresented in this review, such as lower-income countries. Though several included studies were RCTs, effect sizes and practical significance were underreported. Due to the heterogeneity of measures, we interpreted findings primarily through narrative synthesis. Researchers of diverse backgrounds and expertise compose our team; however, we may have biases due to our positionalities. Equally, the premise of our question may reflect privilege and differences in experiences, which limit its utility to some populations. The studies focused on communities using VR but not those ambivalent, against its use for their wellbeing or who lacked access to VR, except in a few studies, which is a limitation of our findings.
Conclusion
VR programs developed for and by marginalized populations have many applications and benefits. We provided a logic model, examining factors for various kinds of VR interventions, and provided their target populations and technologies used. Marginalized researchers and community members can also find a list of publicly available programs reviewed in our supplementary content. Future directions are to conduct subgroup analyses, ensure the continuity and ownership of programs by the populations studied and address underserved populations like racialized, Indigenous and gender expansive communities. In future studies, researchers should design with the intention of transforming health systems to address equity for marginalized populations, especially through collaborations and population-led designs.
Open peer review
To view the open peer review materials for this article, please visit http://doi.org/10.1017/gmh.2025.10084.
Supplementary material
The supplementary material for this article can be found at http://doi.org/10.1017/gmh.2025.10084.
Data availability statement
The data that support the findings of this study are openly available on the Open Science Framework. A pre-print of this article and its contents was made available at https://doi.org/10.31234/osf.io/3u7ea.
Acknowledgements
Many thanks to Jill Boruff from the McGill University library for advising us on the search strategy.
Author contribution
Conceptualization of the study and methodology was in collaboration between Q.S., Martin L., Myrna L. and G.S. The search and screening team who were involved in the investigation were A.H.M., E.C.D., L.S., C.J. and C.D. Software testing and modifications were done by Q.S. and C.D. Data were validated (Q.S., C.L. and A.H.M.) and then analyzed by Q.S. Q.S. is the main author, writing the original draft, which was reviewed and edited by all authors.
Financial support
This work was supported by a doctoral fellowship (https://doi.org/10.69777/316179) from FRQS by the primary author (Q.S.). Otherwise, this research received no specific grant from any funding agency, commercial or not-for-profit sectors.
Competing interests
The authors declare none.
Open access
Comments
Dear editors,
We submit for your consideration Virtual Reality Offerings for and by Marginalized Populations: A Scoping Review on Equity and Intersectionality. Within this five-thousand-word article, we synthesize the current literature and identify several gaps. This review finds multiple applications and benefits of VR to marginalized populations: Programs developed with Indigenous authors and collaborators opened another avenue to cultural connection for participants. Youth had opportunities to build skills and competencies. Older individuals’ affect improved while using the technology. Sexual and gender minorities found safer spaces and relief from mental, emotional and social adversities…Meanwhile, several factors impact VR’s meaningful benefit to marginalized populations, such as community ownership, sex and gender considerations, stratified analyses, transformation of systems, and equitable access.
We first present the article with graphical and English language abstracts. We then introduce the importance of this work, citing Pendse et al (2020), as a key reference to how developing virtual reality (VR) programs can contribute to tailored and plural routes to improving wellbeing. Our methods follow principles from PRISMA-SCR, JBI Evidence Synthesis, and SIITHIA resources, checklists provided in the supplementary materials. For instance, the protocol was preregistered and data available from (DOI 10.17605/OSF.IO/4HE3D), and we provide a PRISMA flow-chart (Figure 1).
The results are presented with both a special section for equity and intersectionality considerations—a critical appraisal of the literature using a modified SIITHIA (shortened by researchers) (Figure 3)—and throughout the results and discussion section. We highlight underrepresented groups, methodological gaps, and systemic barriers and facilitators of this research. We end by providing recommendations to marginalized individuals and researchers who would like to use VR, including a list of resources (Supplement 4), and logic model (Figure 2).